Discussion
... objets, uniformly distributed and randomly oriented. A chiral object is three dimensional that cannot be superimposed on its mirror image by translation and rotation. A chiral object has the property of handedness: It must be either left-handed or right-handed. An equal amount of right- and left-han ...
... objets, uniformly distributed and randomly oriented. A chiral object is three dimensional that cannot be superimposed on its mirror image by translation and rotation. A chiral object has the property of handedness: It must be either left-handed or right-handed. An equal amount of right- and left-han ...
Chapter 10: Simple Harmonic Motion
... We call this a diffraction pattern We will only consider the case where L is very large Fraunhofer diffraction ...
... We call this a diffraction pattern We will only consider the case where L is very large Fraunhofer diffraction ...
Slow Waves
... where a nonlinearity produces a narrow band of transparency in an absorption band. Extreme dispersion in the narrow band causes slow light. ...
... where a nonlinearity produces a narrow band of transparency in an absorption band. Extreme dispersion in the narrow band causes slow light. ...
Perspectives of QM
... If one of the slits (say slit 1) is closed then the blue pattern is obtained on the screen. This is expected from all particles. If slit 2 is closed and slit 1 opened then we would get red pattern. If both slits are open then we would expect a pattern that is sum of blue and red pattern. However, t ...
... If one of the slits (say slit 1) is closed then the blue pattern is obtained on the screen. This is expected from all particles. If slit 2 is closed and slit 1 opened then we would get red pattern. If both slits are open then we would expect a pattern that is sum of blue and red pattern. However, t ...
Giving a boost to atoms (pdf, 124 kB)
... can radiate the absorbed photon by spontaneous emission, they will be induced to emit photons along the direction of the other laser beam. As a result, the recoiling atoms will have the same momentum (the same direction and wavelength) as the input wave. In other words, the input wave has been ampli ...
... can radiate the absorbed photon by spontaneous emission, they will be induced to emit photons along the direction of the other laser beam. As a result, the recoiling atoms will have the same momentum (the same direction and wavelength) as the input wave. In other words, the input wave has been ampli ...
Light Sources * II The Laser
... • Lasing is the condition at which light amplification becomes possible by virtue of population inversion. Then, stimulated emission rate into a given EM mode is proportional to the intensity of the optical radiation in that mode. In this case, the loss and gain of the optical field in the optical p ...
... • Lasing is the condition at which light amplification becomes possible by virtue of population inversion. Then, stimulated emission rate into a given EM mode is proportional to the intensity of the optical radiation in that mode. In this case, the loss and gain of the optical field in the optical p ...
Gigahertz frequency comb offset stabilization
... frequency domain with an uncertainty down to the 10−19 level [1]. Over the past 15 years, the generation and stabilization of such combs [2–4] has enabled control of the cycles of light, which represents a major achievement for laser research and high precision optical metrology [5,6]. The generated ...
... frequency domain with an uncertainty down to the 10−19 level [1]. Over the past 15 years, the generation and stabilization of such combs [2–4] has enabled control of the cycles of light, which represents a major achievement for laser research and high precision optical metrology [5,6]. The generated ...
Development of a spin-exchange relaxation free magnetometer with
... The atomic coherence between the ground states generated by the interaction of laser light with atoms has been applied to interesting topics such as an atomic magnetometer, frequency standards, light storage, quantum memory, and quantum cryptography [1-10]. Detection of a magnetic field with an atom ...
... The atomic coherence between the ground states generated by the interaction of laser light with atoms has been applied to interesting topics such as an atomic magnetometer, frequency standards, light storage, quantum memory, and quantum cryptography [1-10]. Detection of a magnetic field with an atom ...
Syllabus
... Introduction to optical waveguides and fibers, propagation characteristics of fibers, characterization methods, LEDs, laser diodes, optical receivers, optical amplifiers, all-optical switching and fiber optic communication systems. The objective is to give students a comprehensive understanding of t ...
... Introduction to optical waveguides and fibers, propagation characteristics of fibers, characterization methods, LEDs, laser diodes, optical receivers, optical amplifiers, all-optical switching and fiber optic communication systems. The objective is to give students a comprehensive understanding of t ...